Their newly unveiled 3D printed aluminum is ideal for producing parts that are both strong and lightweight, particularly useful for functional and spare parts, as well as jewelry. The 3D printed aluminum that i.materialise is now offering has a slightly more matte appearance in comparison to traditionally milled aluminum, and is a tad bit rougher around the edges too.
To print their new aluminum material, the 3D printing service bureau utilizes their direct metal laser sintering (DMLS) system. The process is comprised of a high-powered laser beam, which sinters and solidifies the initial layer of metal-based powder into the pre-selected design. After the first layer of powder is sintered together, a roller is then used to evenly spread a new layer of powder onto the bed. This process is repeated until the object has been fully built, and once the print is complete, the 3D printed model is then lifted from the powder bed. In order to optimize the prints ordered in their aluminum-based powder, i.materialise has released a number of design tips alongside the announcement of their latest material.
It’s important to note that if your object is in need of support structures, these aluminum supports will have to be removed manually after the printing process is complete. This means that there will possibly be minute evidence of the removed support structure on your finished aluminum print, and that ‘overhanging’ structures will almost always be an unattractive feature with this material. All in all, the most ideal type of shape to print with this aluminum material is a ‘mesh with holes’, which is the easiest to design for the DMLS process, and will also lead to the best possible print. The new aluminum material is currently in a trial mode, and will take approximately 15-18 business days to have printed and shipped to you. The material is ideal for organic and freeform shapes, enabling i.materialise customers to design jewelry and other metal-based components that are beyond their wildest dreams. Discuss further in the i.materialise New Aluminum 3D Printing Material forum over at 3DPB.com.
[Source: i.materialise]